Proximity-Based Phospho-Interactome (Prob-PhI) Characterization Reveals Distinct Signaling Activities of MEK1 and MEK2
Ying Wang, Ping Xiao, Ligang Fan, Yilin Pan, Haiying Ma, Rui Wang, Cuixiang Xu, Liang Zhang

TL;DR
A new method called Prob-PhI identifies proteins that interact with and are phosphorylated by specific kinases, revealing unique roles of MEK1 and MEK2.
Contribution
Prob-PhI is a novel platform for mapping kinase-specific interactomes and phosphorylation events with high precision.
Findings
Prob-PhI successfully identified distinct interactomes and phosphoproteomes of MEK1 and MEK2.
MEK2, but not MEK1, phosphorylates LAMP3 at threonine 201, affecting lysosomal function.
The method enables functional validation of kinase-substrate interactions in signaling networks.
Abstract
Protein kinases play a key role in regulating cellular processes through protein phosphorylation. Comprehensive identification of kinase-specific substrates is essential for elucidating mechanisms of health and disease, yet remains a significant challenge. Here, we present the proximity-based phospho-interactome (Prob-PhI) platforma novel and streamlined method for dissecting kinase interactomes and substrate profiles. Prob-PhI utilizes the rapid biotin ligase BASU to label proteins in proximity to a kinase of interest. Phosphorylation events among these biotinylated interactors are then enriched and analyzed under conditions with and without kinase inhibition, enabling the identification of differential phosphorylation and corresponding substrates. We applied Prob-PhI to MEK1 and MEK2, central components of the mitogen-activated protein kinase (MAPK) pathway, and delineated their…
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Taxonomy
TopicsMelanoma and MAPK Pathways · Microtubule and mitosis dynamics · Click Chemistry and Applications
